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Direktori : /opt/alt/python36/lib/python3.6/site-packages/pip/_internal/req/ |
Current File : //opt/alt/python36/lib/python3.6/site-packages/pip/_internal/req/req_install.py |
# The following comment should be removed at some point in the future. # mypy: strict-optional=False from __future__ import absolute_import import logging import os import shutil import sys import uuid import zipfile from pip._vendor import pkg_resources, six from pip._vendor.packaging.requirements import Requirement from pip._vendor.packaging.utils import canonicalize_name from pip._vendor.packaging.version import Version from pip._vendor.packaging.version import parse as parse_version from pip._vendor.pep517.wrappers import Pep517HookCaller from pip._internal.build_env import NoOpBuildEnvironment from pip._internal.exceptions import InstallationError from pip._internal.locations import get_scheme from pip._internal.models.link import Link from pip._internal.operations.build.metadata import generate_metadata from pip._internal.operations.build.metadata_legacy import \ generate_metadata as generate_metadata_legacy from pip._internal.operations.install.editable_legacy import \ install_editable as install_editable_legacy from pip._internal.operations.install.legacy import LegacyInstallFailure from pip._internal.operations.install.legacy import install as install_legacy from pip._internal.operations.install.wheel import install_wheel from pip._internal.pyproject import load_pyproject_toml, make_pyproject_path from pip._internal.req.req_uninstall import UninstallPathSet from pip._internal.utils.deprecation import deprecated from pip._internal.utils.direct_url_helpers import direct_url_from_link from pip._internal.utils.hashes import Hashes from pip._internal.utils.logging import indent_log from pip._internal.utils.misc import ( ask_path_exists, backup_dir, display_path, dist_in_install_path, dist_in_site_packages, dist_in_usersite, get_distribution, get_installed_version, hide_url, redact_auth_from_url, ) from pip._internal.utils.packaging import get_metadata from pip._internal.utils.temp_dir import TempDirectory, tempdir_kinds from pip._internal.utils.typing import MYPY_CHECK_RUNNING from pip._internal.utils.virtualenv import running_under_virtualenv from pip._internal.vcs import vcs if MYPY_CHECK_RUNNING: from typing import ( Any, Dict, Iterable, List, Optional, Sequence, Union, ) from pip._internal.build_env import BuildEnvironment from pip._vendor.pkg_resources import Distribution from pip._vendor.packaging.specifiers import SpecifierSet from pip._vendor.packaging.markers import Marker logger = logging.getLogger(__name__) def _get_dist(metadata_directory): # type: (str) -> Distribution """Return a pkg_resources.Distribution for the provided metadata directory. """ dist_dir = metadata_directory.rstrip(os.sep) # Build a PathMetadata object, from path to metadata. :wink: base_dir, dist_dir_name = os.path.split(dist_dir) metadata = pkg_resources.PathMetadata(base_dir, dist_dir) # Determine the correct Distribution object type. if dist_dir.endswith(".egg-info"): dist_cls = pkg_resources.Distribution dist_name = os.path.splitext(dist_dir_name)[0] else: assert dist_dir.endswith(".dist-info") dist_cls = pkg_resources.DistInfoDistribution dist_name = os.path.splitext(dist_dir_name)[0].split("-")[0] return dist_cls( base_dir, project_name=dist_name, metadata=metadata, ) class InstallRequirement(object): """ Represents something that may be installed later on, may have information about where to fetch the relevant requirement and also contains logic for installing the said requirement. """ def __init__( self, req, # type: Optional[Requirement] comes_from, # type: Optional[Union[str, InstallRequirement]] editable=False, # type: bool link=None, # type: Optional[Link] markers=None, # type: Optional[Marker] use_pep517=None, # type: Optional[bool] isolated=False, # type: bool install_options=None, # type: Optional[List[str]] global_options=None, # type: Optional[List[str]] hash_options=None, # type: Optional[Dict[str, List[str]]] constraint=False, # type: bool extras=(), # type: Iterable[str] user_supplied=False, # type: bool ): # type: (...) -> None assert req is None or isinstance(req, Requirement), req self.req = req self.comes_from = comes_from self.constraint = constraint self.editable = editable self.legacy_install_reason = None # type: Optional[int] # source_dir is the local directory where the linked requirement is # located, or unpacked. In case unpacking is needed, creating and # populating source_dir is done by the RequirementPreparer. Note this # is not necessarily the directory where pyproject.toml or setup.py is # located - that one is obtained via unpacked_source_directory. self.source_dir = None # type: Optional[str] if self.editable: assert link if link.is_file: self.source_dir = os.path.normpath( os.path.abspath(link.file_path) ) if link is None and req and req.url: # PEP 508 URL requirement link = Link(req.url) self.link = self.original_link = link self.original_link_is_in_wheel_cache = False # Path to any downloaded or already-existing package. self.local_file_path = None # type: Optional[str] if self.link and self.link.is_file: self.local_file_path = self.link.file_path if extras: self.extras = extras elif req: self.extras = { pkg_resources.safe_extra(extra) for extra in req.extras } else: self.extras = set() if markers is None and req: markers = req.marker self.markers = markers # This holds the pkg_resources.Distribution object if this requirement # is already available: self.satisfied_by = None # type: Optional[Distribution] # Whether the installation process should try to uninstall an existing # distribution before installing this requirement. self.should_reinstall = False # Temporary build location self._temp_build_dir = None # type: Optional[TempDirectory] # Set to True after successful installation self.install_succeeded = None # type: Optional[bool] # Supplied options self.install_options = install_options if install_options else [] self.global_options = global_options if global_options else [] self.hash_options = hash_options if hash_options else {} # Set to True after successful preparation of this requirement self.prepared = False # User supplied requirement are explicitly requested for installation # by the user via CLI arguments or requirements files, as opposed to, # e.g. dependencies, extras or constraints. self.user_supplied = user_supplied # Set by the legacy resolver when the requirement has been downloaded # TODO: This introduces a strong coupling between the resolver and the # requirement (the coupling was previously between the resolver # and the requirement set). This should be refactored to allow # the requirement to decide for itself when it has been # successfully downloaded - but that is more tricky to get right, # se we are making the change in stages. self.successfully_downloaded = False self.isolated = isolated self.build_env = NoOpBuildEnvironment() # type: BuildEnvironment # For PEP 517, the directory where we request the project metadata # gets stored. We need this to pass to build_wheel, so the backend # can ensure that the wheel matches the metadata (see the PEP for # details). self.metadata_directory = None # type: Optional[str] # The static build requirements (from pyproject.toml) self.pyproject_requires = None # type: Optional[List[str]] # Build requirements that we will check are available self.requirements_to_check = [] # type: List[str] # The PEP 517 backend we should use to build the project self.pep517_backend = None # type: Optional[Pep517HookCaller] # Are we using PEP 517 for this requirement? # After pyproject.toml has been loaded, the only valid values are True # and False. Before loading, None is valid (meaning "use the default"). # Setting an explicit value before loading pyproject.toml is supported, # but after loading this flag should be treated as read only. self.use_pep517 = use_pep517 def __str__(self): # type: () -> str if self.req: s = str(self.req) if self.link: s += ' from {}'.format(redact_auth_from_url(self.link.url)) elif self.link: s = redact_auth_from_url(self.link.url) else: s = '<InstallRequirement>' if self.satisfied_by is not None: s += ' in {}'.format(display_path(self.satisfied_by.location)) if self.comes_from: if isinstance(self.comes_from, six.string_types): comes_from = self.comes_from # type: Optional[str] else: comes_from = self.comes_from.from_path() if comes_from: s += ' (from {})'.format(comes_from) return s def __repr__(self): # type: () -> str return '<{} object: {} editable={!r}>'.format( self.__class__.__name__, str(self), self.editable) def format_debug(self): # type: () -> str """An un-tested helper for getting state, for debugging. """ attributes = vars(self) names = sorted(attributes) state = ( "{}={!r}".format(attr, attributes[attr]) for attr in sorted(names) ) return '<{name} object: {{{state}}}>'.format( name=self.__class__.__name__, state=", ".join(state), ) # Things that are valid for all kinds of requirements? @property def name(self): # type: () -> Optional[str] if self.req is None: return None return six.ensure_str(pkg_resources.safe_name(self.req.name)) @property def specifier(self): # type: () -> SpecifierSet return self.req.specifier @property def is_pinned(self): # type: () -> bool """Return whether I am pinned to an exact version. For example, some-package==1.2 is pinned; some-package>1.2 is not. """ specifiers = self.specifier return (len(specifiers) == 1 and next(iter(specifiers)).operator in {'==', '==='}) @property def installed_version(self): # type: () -> Optional[str] return get_installed_version(self.name) def match_markers(self, extras_requested=None): # type: (Optional[Iterable[str]]) -> bool if not extras_requested: # Provide an extra to safely evaluate the markers # without matching any extra extras_requested = ('',) if self.markers is not None: return any( self.markers.evaluate({'extra': extra}) for extra in extras_requested) else: return True @property def has_hash_options(self): # type: () -> bool """Return whether any known-good hashes are specified as options. These activate --require-hashes mode; hashes specified as part of a URL do not. """ return bool(self.hash_options) def hashes(self, trust_internet=True): # type: (bool) -> Hashes """Return a hash-comparer that considers my option- and URL-based hashes to be known-good. Hashes in URLs--ones embedded in the requirements file, not ones downloaded from an index server--are almost peers with ones from flags. They satisfy --require-hashes (whether it was implicitly or explicitly activated) but do not activate it. md5 and sha224 are not allowed in flags, which should nudge people toward good algos. We always OR all hashes together, even ones from URLs. :param trust_internet: Whether to trust URL-based (#md5=...) hashes downloaded from the internet, as by populate_link() """ good_hashes = self.hash_options.copy() link = self.link if trust_internet else self.original_link if link and link.hash: good_hashes.setdefault(link.hash_name, []).append(link.hash) return Hashes(good_hashes) def from_path(self): # type: () -> Optional[str] """Format a nice indicator to show where this "comes from" """ if self.req is None: return None s = str(self.req) if self.comes_from: if isinstance(self.comes_from, six.string_types): comes_from = self.comes_from else: comes_from = self.comes_from.from_path() if comes_from: s += '->' + comes_from return s def ensure_build_location(self, build_dir, autodelete, parallel_builds): # type: (str, bool, bool) -> str assert build_dir is not None if self._temp_build_dir is not None: assert self._temp_build_dir.path return self._temp_build_dir.path if self.req is None: # Some systems have /tmp as a symlink which confuses custom # builds (such as numpy). Thus, we ensure that the real path # is returned. self._temp_build_dir = TempDirectory( kind=tempdir_kinds.REQ_BUILD, globally_managed=True ) return self._temp_build_dir.path # When parallel builds are enabled, add a UUID to the build directory # name so multiple builds do not interfere with each other. dir_name = canonicalize_name(self.name) if parallel_builds: dir_name = "{}_{}".format(dir_name, uuid.uuid4().hex) # FIXME: Is there a better place to create the build_dir? (hg and bzr # need this) if not os.path.exists(build_dir): logger.debug('Creating directory %s', build_dir) os.makedirs(build_dir) actual_build_dir = os.path.join(build_dir, dir_name) # `None` indicates that we respect the globally-configured deletion # settings, which is what we actually want when auto-deleting. delete_arg = None if autodelete else False return TempDirectory( path=actual_build_dir, delete=delete_arg, kind=tempdir_kinds.REQ_BUILD, globally_managed=True, ).path def _set_requirement(self): # type: () -> None """Set requirement after generating metadata. """ assert self.req is None assert self.metadata is not None assert self.source_dir is not None # Construct a Requirement object from the generated metadata if isinstance(parse_version(self.metadata["Version"]), Version): op = "==" else: op = "===" self.req = Requirement( "".join([ self.metadata["Name"], op, self.metadata["Version"], ]) ) def warn_on_mismatching_name(self): # type: () -> None metadata_name = canonicalize_name(self.metadata["Name"]) if canonicalize_name(self.req.name) == metadata_name: # Everything is fine. return # If we're here, there's a mismatch. Log a warning about it. logger.warning( 'Generating metadata for package %s ' 'produced metadata for project name %s. Fix your ' '#egg=%s fragments.', self.name, metadata_name, self.name ) self.req = Requirement(metadata_name) def check_if_exists(self, use_user_site): # type: (bool) -> None """Find an installed distribution that satisfies or conflicts with this requirement, and set self.satisfied_by or self.should_reinstall appropriately. """ if self.req is None: return existing_dist = get_distribution(self.req.name) if not existing_dist: return existing_version = existing_dist.parsed_version if not self.req.specifier.contains(existing_version, prereleases=True): self.satisfied_by = None if use_user_site: if dist_in_usersite(existing_dist): self.should_reinstall = True elif (running_under_virtualenv() and dist_in_site_packages(existing_dist)): raise InstallationError( "Will not install to the user site because it will " "lack sys.path precedence to {} in {}".format( existing_dist.project_name, existing_dist.location) ) elif dist_in_install_path(existing_dist): self.should_reinstall = True else: if self.editable: self.should_reinstall = True # when installing editables, nothing pre-existing should ever # satisfy self.satisfied_by = None else: self.satisfied_by = existing_dist # Things valid for wheels @property def is_wheel(self): # type: () -> bool if not self.link: return False return self.link.is_wheel # Things valid for sdists @property def unpacked_source_directory(self): # type: () -> str return os.path.join( self.source_dir, self.link and self.link.subdirectory_fragment or '') @property def setup_py_path(self): # type: () -> str assert self.source_dir, "No source dir for {}".format(self) setup_py = os.path.join(self.unpacked_source_directory, 'setup.py') # Python2 __file__ should not be unicode if six.PY2 and isinstance(setup_py, six.text_type): setup_py = setup_py.encode(sys.getfilesystemencoding()) return setup_py @property def pyproject_toml_path(self): # type: () -> str assert self.source_dir, "No source dir for {}".format(self) return make_pyproject_path(self.unpacked_source_directory) def load_pyproject_toml(self): # type: () -> None """Load the pyproject.toml file. After calling this routine, all of the attributes related to PEP 517 processing for this requirement have been set. In particular, the use_pep517 attribute can be used to determine whether we should follow the PEP 517 or legacy (setup.py) code path. """ pyproject_toml_data = load_pyproject_toml( self.use_pep517, self.pyproject_toml_path, self.setup_py_path, str(self) ) if pyproject_toml_data is None: self.use_pep517 = False return self.use_pep517 = True requires, backend, check, backend_path = pyproject_toml_data self.requirements_to_check = check self.pyproject_requires = requires self.pep517_backend = Pep517HookCaller( self.unpacked_source_directory, backend, backend_path=backend_path, ) def _generate_metadata(self): # type: () -> str """Invokes metadata generator functions, with the required arguments. """ if not self.use_pep517: assert self.unpacked_source_directory return generate_metadata_legacy( build_env=self.build_env, setup_py_path=self.setup_py_path, source_dir=self.unpacked_source_directory, isolated=self.isolated, details=self.name or "from {}".format(self.link) ) assert self.pep517_backend is not None return generate_metadata( build_env=self.build_env, backend=self.pep517_backend, ) def prepare_metadata(self): # type: () -> None """Ensure that project metadata is available. Under PEP 517, call the backend hook to prepare the metadata. Under legacy processing, call setup.py egg-info. """ assert self.source_dir with indent_log(): self.metadata_directory = self._generate_metadata() # Act on the newly generated metadata, based on the name and version. if not self.name: self._set_requirement() else: self.warn_on_mismatching_name() self.assert_source_matches_version() @property def metadata(self): # type: () -> Any if not hasattr(self, '_metadata'): self._metadata = get_metadata(self.get_dist()) return self._metadata def get_dist(self): # type: () -> Distribution return _get_dist(self.metadata_directory) def assert_source_matches_version(self): # type: () -> None assert self.source_dir version = self.metadata['version'] if self.req.specifier and version not in self.req.specifier: logger.warning( 'Requested %s, but installing version %s', self, version, ) else: logger.debug( 'Source in %s has version %s, which satisfies requirement %s', display_path(self.source_dir), version, self, ) # For both source distributions and editables def ensure_has_source_dir( self, parent_dir, autodelete=False, parallel_builds=False, ): # type: (str, bool, bool) -> None """Ensure that a source_dir is set. This will create a temporary build dir if the name of the requirement isn't known yet. :param parent_dir: The ideal pip parent_dir for the source_dir. Generally src_dir for editables and build_dir for sdists. :return: self.source_dir """ if self.source_dir is None: self.source_dir = self.ensure_build_location( parent_dir, autodelete=autodelete, parallel_builds=parallel_builds, ) # For editable installations def update_editable(self, obtain=True): # type: (bool) -> None if not self.link: logger.debug( "Cannot update repository at %s; repository location is " "unknown", self.source_dir, ) return assert self.editable assert self.source_dir if self.link.scheme == 'file': # Static paths don't get updated return assert '+' in self.link.url, \ "bad url: {self.link.url!r}".format(**locals()) vc_type, url = self.link.url.split('+', 1) vcs_backend = vcs.get_backend(vc_type) if vcs_backend: if not self.link.is_vcs: reason = ( "This form of VCS requirement is being deprecated: {}." ).format( self.link.url ) replacement = None if self.link.url.startswith("git+git@"): replacement = ( "git+https://git@example.com/..., " "git+ssh://git@example.com/..., " "or the insecure git+git://git@example.com/..." ) deprecated(reason, replacement, gone_in="21.0", issue=7554) hidden_url = hide_url(self.link.url) if obtain: vcs_backend.obtain(self.source_dir, url=hidden_url) else: vcs_backend.export(self.source_dir, url=hidden_url) else: assert 0, ( 'Unexpected version control type (in {}): {}'.format( self.link, vc_type)) # Top-level Actions def uninstall(self, auto_confirm=False, verbose=False): # type: (bool, bool) -> Optional[UninstallPathSet] """ Uninstall the distribution currently satisfying this requirement. Prompts before removing or modifying files unless ``auto_confirm`` is True. Refuses to delete or modify files outside of ``sys.prefix`` - thus uninstallation within a virtual environment can only modify that virtual environment, even if the virtualenv is linked to global site-packages. """ assert self.req dist = get_distribution(self.req.name) if not dist: logger.warning("Skipping %s as it is not installed.", self.name) return None logger.info('Found existing installation: %s', dist) uninstalled_pathset = UninstallPathSet.from_dist(dist) uninstalled_pathset.remove(auto_confirm, verbose) return uninstalled_pathset def _get_archive_name(self, path, parentdir, rootdir): # type: (str, str, str) -> str def _clean_zip_name(name, prefix): # type: (str, str) -> str assert name.startswith(prefix + os.path.sep), ( "name {name!r} doesn't start with prefix {prefix!r}" .format(**locals()) ) name = name[len(prefix) + 1:] name = name.replace(os.path.sep, '/') return name path = os.path.join(parentdir, path) name = _clean_zip_name(path, rootdir) return self.name + '/' + name def archive(self, build_dir): # type: (str) -> None """Saves archive to provided build_dir. Used for saving downloaded VCS requirements as part of `pip download`. """ assert self.source_dir create_archive = True archive_name = '{}-{}.zip'.format(self.name, self.metadata["version"]) archive_path = os.path.join(build_dir, archive_name) if os.path.exists(archive_path): response = ask_path_exists( 'The file {} exists. (i)gnore, (w)ipe, ' '(b)ackup, (a)bort '.format( display_path(archive_path)), ('i', 'w', 'b', 'a')) if response == 'i': create_archive = False elif response == 'w': logger.warning('Deleting %s', display_path(archive_path)) os.remove(archive_path) elif response == 'b': dest_file = backup_dir(archive_path) logger.warning( 'Backing up %s to %s', display_path(archive_path), display_path(dest_file), ) shutil.move(archive_path, dest_file) elif response == 'a': sys.exit(-1) if not create_archive: return zip_output = zipfile.ZipFile( archive_path, 'w', zipfile.ZIP_DEFLATED, allowZip64=True, ) with zip_output: dir = os.path.normcase( os.path.abspath(self.unpacked_source_directory) ) for dirpath, dirnames, filenames in os.walk(dir): for dirname in dirnames: dir_arcname = self._get_archive_name( dirname, parentdir=dirpath, rootdir=dir, ) zipdir = zipfile.ZipInfo(dir_arcname + '/') zipdir.external_attr = 0x1ED << 16 # 0o755 zip_output.writestr(zipdir, '') for filename in filenames: file_arcname = self._get_archive_name( filename, parentdir=dirpath, rootdir=dir, ) filename = os.path.join(dirpath, filename) zip_output.write(filename, file_arcname) logger.info('Saved %s', display_path(archive_path)) def install( self, install_options, # type: List[str] global_options=None, # type: Optional[Sequence[str]] root=None, # type: Optional[str] home=None, # type: Optional[str] prefix=None, # type: Optional[str] warn_script_location=True, # type: bool use_user_site=False, # type: bool pycompile=True # type: bool ): # type: (...) -> None scheme = get_scheme( self.name, user=use_user_site, home=home, root=root, isolated=self.isolated, prefix=prefix, ) global_options = global_options if global_options is not None else [] if self.editable: install_editable_legacy( install_options, global_options, prefix=prefix, home=home, use_user_site=use_user_site, name=self.name, setup_py_path=self.setup_py_path, isolated=self.isolated, build_env=self.build_env, unpacked_source_directory=self.unpacked_source_directory, ) self.install_succeeded = True return if self.is_wheel: assert self.local_file_path direct_url = None if self.original_link: direct_url = direct_url_from_link( self.original_link, self.source_dir, self.original_link_is_in_wheel_cache, ) install_wheel( self.name, self.local_file_path, scheme=scheme, req_description=str(self.req), pycompile=pycompile, warn_script_location=warn_script_location, direct_url=direct_url, requested=self.user_supplied, ) self.install_succeeded = True return # TODO: Why don't we do this for editable installs? # Extend the list of global and install options passed on to # the setup.py call with the ones from the requirements file. # Options specified in requirements file override those # specified on the command line, since the last option given # to setup.py is the one that is used. global_options = list(global_options) + self.global_options install_options = list(install_options) + self.install_options try: success = install_legacy( install_options=install_options, global_options=global_options, root=root, home=home, prefix=prefix, use_user_site=use_user_site, pycompile=pycompile, scheme=scheme, setup_py_path=self.setup_py_path, isolated=self.isolated, req_name=self.name, build_env=self.build_env, unpacked_source_directory=self.unpacked_source_directory, req_description=str(self.req), ) except LegacyInstallFailure as exc: self.install_succeeded = False six.reraise(*exc.parent) except Exception: self.install_succeeded = True raise self.install_succeeded = success if success and self.legacy_install_reason == 8368: deprecated( reason=( "{} was installed using the legacy 'setup.py install' " "method, because a wheel could not be built for it.". format(self.name) ), replacement="to fix the wheel build issue reported above", gone_in="21.0", issue=8368, ) def check_invalid_constraint_type(req): # type: (InstallRequirement) -> str # Check for unsupported forms problem = "" if not req.name: problem = "Unnamed requirements are not allowed as constraints" elif req.link: problem = "Links are not allowed as constraints" elif req.extras: problem = "Constraints cannot have extras" if problem: deprecated( reason=( "Constraints are only allowed to take the form of a package " "name and a version specifier. Other forms were originally " "permitted as an accident of the implementation, but were " "undocumented. The new implementation of the resolver no " "longer supports these forms." ), replacement=( "replacing the constraint with a requirement." ), # No plan yet for when the new resolver becomes default gone_in=None, issue=8210 ) return problem